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    Please use this identifier to cite or link to this item: http://ir.lib.ncu.edu.tw/handle/987654321/1726


    Title: 金、鉑擔載於二氧化鈦上進行光催化甲醇重組產氫之研究;studies on the photocatalytic hydrogen production by methanol reforming over Pt/TiO2 and Au/TiO2
    Authors: 鄭玫玲;Mei-Ling Jheng
    Contributors: 材料科學與工程研究所
    Keywords: 二氧化鈦;甲醇;光催化;氫氣;hydrogen;TiO2;photocatalytic;methanol
    Date: 2007-06-29
    Issue Date: 2009-09-21 11:28:49 (UTC+8)
    Publisher: 國立中央大學圖書館
    Abstract: 二氧化鈦是目前使用率最高的半導體光觸媒,因其有照光後不發生光腐蝕、且耐酸鹼、化學性質穩定、對生物無毒性、來源豐富等優異的特性,所以運用很廣泛,可用來抗菌除臭、分解污水中的有機物質,或是淨化廢氣等等。本研究藉由二氧化鈦來光催化甲醇重組產生氫氣,提供無污染、無害的潔淨能源。 純二氧化鈦經紫外光照射所產生的電子電洞很容易在其內部或表面重新結合,所以活性很差。如果在二氧化鈦表面擔載金屬,光生電子會遷移到金屬上,可防止電子與電洞的再結合,增加觸媒活性。實驗使用光沉積法與沉澱固著法將Pt或Au金屬擔載在二氧化鈦上,觀察不同擔載金屬、擔載方法、合成及反應容器材質,及合成、反應時使用的光源對氫產量的影響。 研究結果顯示,以光沉積法在石英槽中合成的Pt/TiO2觸媒,氫產量比在玻璃槽中合成的Pt/TiO2觸媒還多。因石英槽能穿透的紫外光較多,可利用的光子數量也較多,使得更多的Pt離子能在二氧化鈦表面還原、沉積,金屬沉積量大,所以觸媒的活性好。在石英槽中進行光催化反應的氫產量也會比玻璃槽的多,因為穿透石英槽的紫外光多,使得二氧化鈦被激發產生的電子也多,可以還原更多的甲醇增加氫產量。使用光強度較強的光源合成觸媒,氫產量也會比較多,因沉積的金屬顆粒較小,二氧化鈦與金屬接觸邊界增加,使得活性位置變多,氫產量也跟著增加。光催化反應使用強度較強的光源,對增加氫產量也有幫助,可激發更多的電子來還原甲醇。大致上二氧化鈦來源為AMT-100的觸媒反應活性較好,因擔載其上的金屬粒子特別小,造成二氧化鈦與金屬接觸邊界增加,活性位置增加,所以產氫量多。以Au/TiO2觸媒而言,使用沉澱固著法所製備的觸媒活性比光沉積法的好,雖然兩種方法所製備出來的觸媒其金屬擔載量差不多,但因使用沉澱固著法擔載上去的金屬顆粒較小,活性位置多,所以氫產量較大。 In this study, we report the production of hydrogen by methanol reforming reaction under ultraviolet light irradiation (350 nm or 306 nm) over Pt/TiO2 and Au/TiO2. The effect of catalyst preparation methods, materials of the preparation and reaction vessels, and UV light sources are studied. The catalysts are characterized by XRD, TEM, ICP and BET. The catalyst Pt/TiO2 is prepared by photodeposition method. The activity for hydrogen production is higher when the catalyst is prepared in a quartz vessel instead of a glass vessel. Quartz is more transparent for UV light hence more Pt ions are reduced on the surface of TiO2 and higher activity is obtained. Higher activity is also observed in a quartz reaction vessel. The catalysts prepared with higher intensity and shorter wavelength UV light (306 nm) show higher activities. The particle sizes of Pt on TiO2 are smaller when Pt is deposited under higher intensity and shorter wavelength UV light, hence larger contact area between Pt and TiO2 is created. For Au/TiO2 catalysts, the activity is higher for catalyst prepared from deposition precipitation (DP) method than photodeposition method. The amounts of Au loading are similar in catalysts prepared from both methods; however, the particle size is smaller in catalyst prepared by DP method. The smaller metal particle sizes increase the more active sites in contact area between Au and TiO2 create.
    Appears in Collections:[Institute of Materials Science and Engineering] Electronic Thesis & Dissertation

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